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O 1 f wM7 APPENDIX 5.D EXPANDED SPECTRUM OF TORNADO MISSILES s

The spectrum of tornado missiles is expanded to include the following:

s 1.

Utility pole 13.5" dia. x 35 ft. long with density of 43 lbs/ft3 2.

1" solid steel rod 3 ft. long with a density of 490 lbs/ft3 m.

~ i 4

3.

6", schedule 40 pipe, 15 ft. long with a density of 490 lbs/ft3 4.

12", schedule 40 pipe, 15 ft. long with a density of 490 lbs/ft8 For each of the above tornado-borne missiles, the following information is provided:

1.

The maximum velocity and height attained. Assuming in the analyses that each of the missiles originate at ground level and at the highest structural elevation on the site capable of producing each missile.

2.

The required thickness of a reinforced concrete missile barrier to stop the missiles without their penetrating the missile barrier. Discussing the adequacy of all tornado missile

(}-

barriers protecting systems and components necessary for safe shutdown.

3.

The required thickness of a reinforced concrete missile barrier to preclude the generation of secondary missiles within the structure.

4.

The effects that secondary missiles could have on safety related equipment and systems in the event that they occur.

In developing the above information, the analytical approach presented in BC-TOP-9, Design of Structure for Missile Damage with the following exceptions is used, assuming the uissiles do not tumble and are at all times oriented such as to have the maximum value of CdA while in flight.

W THE TORNADO MODEL: The tornado model will be patterned after the Dallas tornado of April 2, 1957, as studied by Hoecker (Ref. 1).

The model is basically that given in WCAP-7897 (Ref. 2) but with a more rigorous extrapolation to the parameters desired for a design tornado, then given by Bates and Swanson (Ref. 3).

I Hoecker summarized his findings by the use of a " pressure-time profile" for an average translational velocity of 27 mph and as a function of

- percentage of total pressure drop.

5.D-1 j

{

JUN 101982 In attachment A, it is shown that when this time-pressure profile is used

-(

to solve the cyclostropic wind equation, the tangential wind velocities correspond with the experimental ones when a total pressure drop of 60 mb or 0.882 psi, and a translational velocity of 27 mph is substituted into the equation.

When a total pressure drop of 3 psi, and a 60-mph translational velocity (88 fps) is substituted into the same equation, a 304-mph maximum tangential velocity at a 300-foot radius is obtained. This corresponds closely to the assumptions which have been made in the past when describing the design tornado.

The two exponential equations used by Hoecker to determine the time-pressure profile cross each other at a radius of 1,240 feet instead of the 300 feet at which they cross when a translational velocity is 27 mph.

Therefore, it is only necessary to use one equation since the starting tangential velocity corresponding to this distance is 66 mph, which is less than the minimum 75 mph considered by Bates and Swanson.

By incorporating these two assumptions, namely, that the vertical component is equal to one third of the tangential, and the radial component is a function of radial distances between minimum and maximum tangential components being considered, a complete windfield was defined by using the following equations:

V = 249 g Exp (-48.3 Va/R ) Van (3)

R3 y = _ (1240-R) R (2) r (1240-300)

V = 1/3 V (3) y Where:

V = tangential velocity (fps)

V = radial velocity (fps)

V = vertical velocity (fps) y V = translational velocity (fps) 7 D = total pressure drop (psf)

R = radius (ft)

Equation (1) has been left in a general form for use in future models to predict different total pressure drops or translational velocities.

However, at this time D is taken as 432 psf and V = 88 fps.

3 5.D-2 m

"k.1 01982 The relative conservatism with reference to the actual Dallas tornado is shown in Figure 5.D-1.

Constant velocities from the ground to a height of 500 feet is a degree of conservatism which is justified by the expanded view of these velocities. This information has been published by Hoecker and is reproduced in Figure 5.D-2.

TYPES OF MISSILES: Previous studies had considered a car as a missile for low elevations and a wooden plank for high elevations. Later a small cross-section missile in the form of a pipe was added. Five missiles are now being considered.

All the missiles are intended as prototypes of the many missiles generated by tornados. Considering the present state of the art, a detailed physical description of a missile is of little value when designing the missile proof target. Empirical formulations have to be used in areas where impactive energy and the impactive area are the points to be considered.

The more logical approach is to assume a generalized range of missiles with the required drag factors impacting at given elevations.with the highest possible velocity. The impactive kinetic energy per square foot of impact area for each elevation would then be computed.

If a table is made with C A/W factors from 0.10 to 0.015, which is the d

('

smallest measurement for an airborne missile, it will be found that there is a drag fact'or that will give the highest velocity at each elevation.

This is shown in Table 5.D-1.

It is interesting to show the small range and the gap left for the maximum drag factor proposed.

Wooden plank 0.06 Steel rod 0.031 Utility pole 0.026 6 inch pipe 0.029 12 inch pipe 0.021 Impactive energy per unit area measured in lb/ft as shown on Table II is readily found es follows:

2 y2 K=WV

=

2g A 2g F Where:

K = impactive factor (lb/ft)

V = velocity at impact (fps) 2 A = area of impact (ft )

F = C A/W for Cd=1 d

5.D-3 ee

JUN'l 0 W As expected, this impactive factor is much higher at lower elevations:

(

it varies from 49,640 lb/ft for a 10-foot elevation at 22,070 lb/ft for a 110-foot elevation.

Penetrations can be computed by the required empirical formulation which is workable in terms of these impactive factors.

METHODS OF INJECTION AND PROPULSION: Bates and Swanson propose three methods of injection:

a.

Explosive injection b.

Aerodynamic injection c.

Ramp injection These are intended to limit the height at which a given object may be injected into a tornado. So many considerations and assumptions have to be made that they become of no practical value when it is to be assumed that the object will reach the highest point of a structure even if the missile has to be held at a convenient elevation for injection to occur.

If an explosive injection occurs some distance away from a structure, it is concluded that the object could clear the structure, if such an injection could occur. Aerodynamic injection will require aerodynamic objects or else the injection is overestimated. Likewise, a ramp injec-tion will depend on the given ramp, a factor that is hard to generalize.

('

All three methods of injection required many assumptions which make it difficult for generalization. A fourth method which would be called the

" Uplift Injection" offers the advantages of simplicity and applicability.

In the uplift injection it is assumed that the wind finds its way beneath a surface and the object will become airborne at the time when the vertical component of the wind produces an upward forced equal to the weight of the object. While on the ground the object is assumed to be free to move on the horizontal plane in a frictionless manner as the tangential and radial components of the wind act on it.

When a missile flight is to be ascertained by applying the three compon-ents of the wind (tangential, radial and vertical) simultaneously, a random surface is assumed to be facing all three components. This random surface will produce what is called in WCAP-7897 an " effective drag factor" to be applied in all directions _and which is computed as follows:

Cylinder:

C - 0.389 (h+0.66D) e P

hD ob ).

Parallelpiped:

C - 0.483 w(h+d)

~

e P

whd obj 5.D-4 n

.a 0 19 E 4

Where:

C}

C,

= effective drag factor h

= ler.gth, ft D

= diameter, ft 3

P

= density, lb/ft obj w

= width, ft d

= depth, ft To date, this is the best method of computing an effective drag area for an object thrown into a tornado.

Using these effective drag areas in the computer program, DALLAS MISS GEN, the following results were obtained:

Wooden Plank Utility Pole Steel Rod 6 in. Pipe 12 in. Pipe C = 0.03 C = 0.0082 C = 0.0097 C =0.0bl5 C = 0.00078 e

e e

e e

Elevation

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10 223 182 192 98 20 264 30 279

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40 270 50 261 60 258 These results show that only the wooden plank tank type missile could be sustained in the air.

It supports WCAP-7897, Chapter 5:

" Investigation of Some Specific Missiles" which clearly states:

"The results of Figure 3 2

indicate that objects with a C A/W 1ess_than 0.012 ft /lb will not be d

sustained by the vertical wind even if injected above immediate obstruc-tions."

(Figure 3 is contained in WCAP-7897.)

It appears then that instead of assuming impossible C A/W factors for a g

given set of missiles, it is best to assume an infinite number of missiles, all with possible effective drag factors.

5.D-5 a

s N10502 N'()

The required thickness of a concrete element that will just be perforated by a missile is given by:

Y 1.33 427 W

s T

s/fF" D1.8 1000 C

where:

Thickness of concrete element to be just perforated T

=

(inches)

Weight of missiles (lb)

W

=

Diameter of missiles (inches)

D

=

Note:

For irregularly shaped missiles, an equivalent diameter is used. The equivalent diameter is taken as the diameter of a circle with an area equal to the circumscribed contact, or projected frontal area, of the non-cylindrical missile.

V, Striking velocity of missile (ft/sec)

=

f'

=

Compressive strength of concrete (psi) c This formula is known as the Ballistic Research Laboratory, BRL, formula.

i The thickness, t, of a concrete element required to prevent perforation must be greater Ehan T.

It is recommended to increase T by 25 percent, but not more than 10 inches, to obtain the t, required to prevent P

perforation.

t = 1.25T {T + 10 (in inches)

The results obtained by using the above formula are presented in Table 5.D-5.

The concrete barriers furnished to protect systems and components necessary for safe shutdown exceed the required thickness to prevent perforation by the missiles.

Spalling of concrete from the side opposite the impact surface of the element is considered as a secondary missile. For an estimate of the thickness that will just start spalling, it is recommended that the following equation be used:

T = 2T s

where:

Concrete element thickness that will just start spalling T

=

s (inches)

Concrete thickness to be just perforated (inches).

T =

5.D-6 a

m

~

JUN I o M o

The thickness, t, of a concrete element required to prevent spalling

(

must be greater Ehan T.

It is recommended to increase T, by 25 percent, but not more than 10 inches, to prevent spalling.

t, = 1.25 T, { T, + 10 (in inches)

The results obtained by using the above formula are presented in Table 5.D-5.

The Ballistic Research Laboratory (BRL) formula was selected after a thorough study of all available formulae in the literature for concrete perforation and spalling due to missile impact. As with all other available formulae tue BRL formula represents an empirical expression based upon high velocity test data and was developed for use in the high velocity range (i.e., missile impact velocity in excess of 1,000 ft/sec).

The range of missile velocities cons'idered in a nuclear facility is generally below 500 ft/sec.

In order to provide a confidence margin for the lower velocity range, and to assure that barrier thickness would exceed that at which perforation or spalling impends, the design thick-ness was increased.

Test data on the impact of a one-inch diameter steel rod having a velocity from 150 ft/see to 320 ft/sec on a concrete barrier of 3 inches, 6 inches and 9 inches in thickness indicate that these formulae provide conserva-tive results for both concrete perforation and spalling in the velocity range as stated. A summary of the test results is presented in Figure 5.D-6.

{

A procedure for determining thickness of spalling is presented in Reference 4.

The spalling effects on concrete wall due to the impacts of wooden plank and utility pole were investigated and in both cases, no spalling of concrete wall were indicated. Therefore, the secondary missiles are not considered creditable.

The thickness, t, of a concrete element required to prevent spalling, is more than the thickness, T, of a. concrete element furnished in the cases ofwoodenplankandutilitypole,asindicatedinTable5.D-5. The thickness, t, provides a simplified approach of determining a thickness s

required for a concrete barrier to stop a' missile. A margin of safety, an increase of 25% of the calculated values with an upper limit of 10 inches, is a logical safety factor against spalling or perforation.and is further reinforced by the test data presented in Figure 5.D-3.

The formula used to determine the thickness of spalling does not consider reinforcing steel which tends to reduce the amount of spalling.

If t is less than T, as in the case of 3" steel rod and 6" pipe, no additional analysis is" required.

To determine the thickness of spalling, the following formula, as presented in Reference 4.

282 N W V

X max 1.8 1000

{

fc d 5.D-7 n

I Mlow b

T g

C )1/3

(

C

= - - ---- + C3 "I l 1

l max s

II

• 0.877 W 3

Xmax C = 2.8 - C 2

3 30 6

=C X

V, 1/3 t

2 max y

s where:

W = weight o missile, pounds r

V = missile velocity, ft/sec T = target thickness, inches

(

d = diameter of missile, inches fc = concrete strength, psi

~

N = nose factor = 0.845 for hemi-spherical nose C, = dilational velocity in concrete = 9,800 ft/sec By substituting the following values into the equations, the value of A, thickness of spalling, for the wooden plank and the utility pole was determined to be insignificant.

Wooden Plank Utility Pole W = 105 pounds 1,500 pounds V = 280 fps 182 fps T = 12 inches 24 inches d = 7.82 inches 13.5 inches fc = 3,000 psi 3,000 psi G

5.D-8 L